Failure of Fiber-Reinforced Granular Soils

Abstract

Short fibers have been tried in the past few years as a soil-improvement admixture (reinforcement), yet no failure criteria for fiber-reinforced soils, consistent with numerical methods for solving boundary-value problems, are available. An attempt at deriving the limit condition for a fiber-reinforced granular soil is presented. An energy-based homogenization scheme is used to arrive at the macroscopic failure stress of the fibrous granular composite. A piecewise closed-form failure criterion is derived. The internal friction angle is used to quantify the strength of the granular matrix, and the fibers are characterized by volumetric concentration, aspect ratio, yield point, and the fiber-soil interface friction angle. Laboratory tests on specimens with low fiber content indicate a good agreement of the model predictions with the actual test results.

Keywords

This publication has 16 references indexed in Scilit:

Elasto-plastic stress-strain theory for cohesionless soil with curved yield surfaces
Published by Elsevier ,2003
On the elastic moduli of some heterogeneous materials
Published by Elsevier ,2002
A constitutive model for soil reinforced by continuous threads
Geotextiles and Geomembranes, 1993
Static Response of Sands Reinforced with Randomly Distributed Fibers
Journal of Geotechnical Engineering, 1990
Yield design of reinforced earth walls by a homogenization method
Géotechnique, 1989
Laboratory Investigation of Earth Walls Simultaneously Reinforced by Strips and Random Reinforcement
Geotechnical Testing Journal, 1988
Analysis of Composite Materials—A Survey
Journal of Applied Mechanics, 1983
Mechanics of Fiber Reinforcement in Sand
Journal of Geotechnical Engineering, 1983
Generalized Initial Yield Surfaces for Unidirectional Composites
Journal of Applied Mechanics, 1974
A self-consistent mechanics of composite materials
Journal of the Mechanics and Physics of Solids, 1965